stannite
简明释义
黄锡矿
[无化] 亚锡酸盐
英英释义
Stannite is a mineral composed of copper, tin, and sulfur, typically found in hydrothermal veins. | Stannite是一种矿物,由铜、锡和硫组成,通常在热液脉中发现。 |
单词用法
锡矿石 | |
锡矿 | |
锡矿成分 | |
锡矿沉积 | |
锡矿提取 | |
锡矿样本 |
同义词
| 锡矿石 | Stannite is often referred to as tin ore in mining contexts. | 在采矿环境中,stannite常被称为锡矿石。 | |
| 锡酸盐 | Stannic sulfide is a key component in the composition of stannite. | 锡酸盐是stannite成分中的一个关键部分。 |
反义词
| 锡的(指含有锡的化合物,通常是氧化锡) | 锡酸盐在陶瓷中用作颜料。 | ||
| 锡(元素,通常指其单质状态) | 锡常用于合金和涂层。 |
例句
1.In addition to cassiterite and stannite, galena also contains a high amount of tin.
除锡石和黄锡矿外,方铅矿也含有较高的锡。
2.In addition to cassiterite and stannite, galena also contains a high amount of tin.
除锡石和黄锡矿外,方铅矿也含有较高的锡。
3.The mineral sample contained a significant amount of stannite (锡矿石), which is essential for tin extraction.
该矿物样本含有大量的stannite(锡矿石),这对锡的提取至关重要。
4.During the mining operation, workers discovered a rich vein of stannite (锡矿石) that could boost production.
在采矿作业中,工人们发现了一条丰富的stannite(锡矿石)矿脉,可能会提升产量。
5.Researchers are studying the thermal properties of stannite (锡矿石) for potential applications in electronics.
研究人员正在研究stannite(锡矿石)的热性能,以便在电子产品中应用。
6.In geology, stannite (锡矿石) is often found in association with other sulfide minerals.
在地质学中,stannite(锡矿石)通常与其他硫化矿物共生。
7.The extraction process of stannite (锡矿石) can be complex due to its chemical composition.
由于其化学成分,提取stannite(锡矿石)的过程可能很复杂。
作文
In the world of mineralogy, there are countless minerals that capture the interest of scientists and enthusiasts alike. One such mineral is stannite, a fascinating compound that primarily consists of copper, tin, and sulfur. The chemical formula for stannite is Cu2FeSnS4, which indicates its complex structure and the various elements that contribute to its properties. Understanding stannite is essential not only for mineral collectors but also for those involved in metallurgy and materials science. Stannite is often found in hydrothermal veins and can be associated with other sulfide minerals, making it an important part of the mining industry. Its unique composition allows it to be utilized in various applications, including the production of tin and copper alloys.The significance of stannite extends beyond its economic value; it also plays a role in understanding geological processes. The formation of stannite occurs under specific temperature and pressure conditions, which can provide insight into the environmental conditions of the Earth’s crust at the time of its formation. By studying stannite and other related minerals, geologists can reconstruct past geological events and better understand the dynamics of our planet.Moreover, the study of stannite has implications for sustainable mining practices. As demand for metals increases, it is crucial to explore and exploit mineral resources responsibly. Understanding the properties and occurrences of stannite can lead to more efficient extraction methods that minimize environmental impact. This is particularly important in regions where mining activities can disrupt local ecosystems and communities.In addition to its practical applications, stannite also captivates researchers due to its intriguing crystal structure. The crystals of stannite typically form in a tetragonal system, which gives them distinct geometric shapes that are appealing to mineral collectors. The study of these crystal structures can reveal valuable information about the conditions under which stannite formed, including temperature, pressure, and the presence of other minerals.As we continue to explore the vast array of minerals found on Earth, stannite serves as a reminder of the complexity and beauty of our planet's geology. For students and professionals in the fields of geology and materials science, understanding stannite is not just an academic exercise; it is a gateway to appreciating the intricate processes that shape our world. Whether through hands-on research or theoretical study, the exploration of stannite and its properties contributes to our broader understanding of mineralogy and its applications in modern society.In conclusion, stannite is more than just a mineral; it is a key player in the fields of geology, metallurgy, and sustainable resource management. Its unique composition and formation processes offer insights into both the Earth's history and the future of mining practices. As we strive to balance economic development with environmental stewardship, stannite will undoubtedly remain an important subject of study for years to come.
斯坦石是矿物学中一种引人注目的矿物,主要由铜、锡和硫组成。斯坦石的化学式为Cu2FeSnS4,表明其复杂的结构以及构成其特性的各种元素。理解斯坦石不仅对矿物收藏家至关重要,对冶金和材料科学领域的人士同样如此。斯坦石通常存在于热液脉中,并可能与其他硫化矿物相关联,使其成为采矿行业的重要组成部分。其独特的成分使其能够用于多种应用,包括锡和铜合金的生产。斯坦石的意义不仅限于其经济价值;它还在理解地质过程方面发挥着作用。斯坦石的形成发生在特定的温度和压力条件下,这可以提供对当时地壳环境条件的深入了解。通过研究斯坦石及其他相关矿物,地质学家可以重建过去的地质事件,更好地理解我们星球的动力学。此外,斯坦石的研究对可持续采矿实践也有影响。随着金属需求的增加,探索和开发矿产资源的责任显得尤为重要。理解斯坦石的性质和分布可以导致更高效的开采方法,从而最小化环境影响。这在那些采矿活动可能干扰当地生态系统和社区的地区尤其重要。除了实际应用外,斯坦石由于其迷人的晶体结构而吸引了研究人员。斯坦石的晶体通常呈四方晶系,赋予其独特的几何形状,令矿物收藏家颇感兴趣。对这些晶体结构的研究可以揭示有关斯坦石形成条件的宝贵信息,包括温度、压力和其他矿物的存在。随着我们继续探索地球上丰富多样的矿物,斯坦石提醒我们注意我们星球地质的复杂性和美丽。对于地质学和材料科学领域的学生和专业人士来说,理解斯坦石不仅仅是学术上的练习;它是欣赏塑造我们世界的复杂过程的一个入口。无论是通过实践研究还是理论研究,探索斯坦石及其性质都为我们更广泛地理解矿物学及其在现代社会中的应用做出了贡献。总之,斯坦石不仅仅是一种矿物;它是地质学、冶金学和可持续资源管理领域的关键参与者。其独特的成分和形成过程为我们提供了对地球历史和未来采矿实践的见解。随着我们努力平衡经济发展与环境保护,斯坦石无疑将在未来几年继续成为重要的研究课题。
